Fuji Gas Analyzers - Amtek, Spol. S Ro.

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Fuji Gas Analyzers 21C2-E-0005b Conservation of sound environment is also our important task. Our company commercialized an infrared type gas analyzer in 1954 and recently has developed unique analyzers one after another as represented by a CO/O2 analyzer for monitoring of dioxins emission reguration and a simultaneous multi-component gas analyzer in order to enrich the product lineup. Our company will continue offering analytical instruments helpful for protection of the global environment through the integration of new technologies and long experience. INFRARED GAS ANALYZER best suited for measuring exhaust gas in stack Simultaneous Measurement of 5 components; NOX, SO2, CO, CO2 and O2 CO, O2 Gas Analyzer for stack gas Type: ZSJ Type: ZSU Simultaneous Measurement of 7 components; NOX, SO2, HCℓ, CO, CO2, O2, Soot and Dusts Compact Type NOX, SO2, CO, CO2 and O2 GAS ANALYZER Type: ZSU-7 Type: ZSQ Type: ZSVF BIOMASS GAS ANALYZER CO2 CONTROLLER Simultaneously and continuously monitors best suited for building ventilation and green house H2S, CH4, CO2, and O2 Type: ZFP Type: ZPAF CROSS STACK LASER GAS ANALYZER CO, CO2, CH4 ANALYZER Transmitter unit Air purge 0.5 to 10m Air purge Stack Receiver unit Type: ZSS Control unit Laser Beam NH HCℓ CO2 H2O CH4 O2 Fast measurement of NH3 Gas or HCℓ, H2O, CO, CO2, CH4, O2 Gas concentration in Stack Power supply Type: ZFG OXYGEN ANALYZER SERIES best suited for combustion control and energy saving IN-SITU ZIRCONIA OXYGEN ANALYZER Type: ZSB Type: ZKMA Type: ZKMB Fast response type PARAMAGNETIC ANALYZER Type: ZKME Type: ZAJ Type: ZFK8 (Converter) (Detector) 1 (Converter) (Converter) Type: ZKG ANALYZER best suited for measuring atmosphere gas in heat treatment furnace ◦INFRARED system Single beam type NOX, SO2, CO, CO2, CH4 and O2 measuring, 5-component analyzer Type: ZPA Type: ZPB NOX, SO2, CO, CO2, CH4 and O2 measuring, 4-component analyzer Type: ZRE NOX, SO2, CO, CO2, and O2 measuring, Low-concentration measurement Easy-to-carry Type: ZRJ Type: ZPG PORTABLE TYPE CO, CO2, CH4, O2 analyzer Dual beam type NOX, SO2, CO, CO2, CH4 and O2 measuring, 5-component analyzer NOX, SO2, CO, CO2 measuring, 1-component analyzer Type: ZSVS Type: ZKJ Type: ZRC6 Automobile exhaust gas analyzer for measurement of HC, CO, CO2 and O2 GAS ANALYZER ◦THERMAL CONDUCTIVITY system He, Ar, and H2 measuring Type: ZAF Type: ZKE Satisfactory products for customers will be delivered under strict quality control. "Status of manufacturer specified in the Measurement Law" already acquired: Specification No. 391901 ISO 14001 certification already obtained: ISO 9001 certification already obtained: Registration certificate No. EC97J1059 Registration certificate No. JMI-0122 2 INFRARED GAS ANALYZER Is the air really safe? Yes. Because a gas analyzer keeps an eye on pollutant gases. Simultaneous Measurement of NOX, SO2, CO, CO2 and O2 for stack gas Type: ZSU Japanese pattern approval SAS992-1 (SO2 meter) SAC992-1 (CO meter) SAN991-1 (NOX meter) SE981 (O2 meter) SF011 (O2 meter) FEATURES .................................................. ‌Measurement by the infrared ray method (dual beam optics) excellent in long-term stability.  Hardly affected by unintended gases because interference components' influence is corrected with twin detectors.  Standard-equipped with automatic zero/span calibrating function.  Space saving design allowing maintenance from the front of each analyzer. SPECIFICATIONS ....................................... ● Measuring object: Exhaust gas of Incinerator and boiler, etc. ● Measurable components: NOX, SO2, CO, CO2, O2 ● Measuring system: Dual beam type infrared method (O2: Zirconia method or Paramagnetic method) ● Measurement range: NOX: 0 to 50 ........... 5000ppm SO2: 0 to 50 ........... 5000ppm CO: 0 to 50 ........... 5000ppm CO2: 0 to 10 / 0 to 20% O2: 0 to 10 / 0 to 25vol% Repeatability: ±0.5%FS Linearity: ±1%FS Zero/span drift: ±2%FS/week (O2: ±2%/month) R  esponse time: NOX, CO, CO2, O2: 2 minutes, SO2: 4 minutes (90% response, from the device inlet) Output signal: 4 to 20mA DC Contact output: Auto calibration status, maintenance status, concentration alarm, CO peak count alarm, range identification of each component, etc. C  ontact input: Auto calibration start, range changeover, pump ON-OFF, etc.  uto calibration, O2 correction, average value calculation, Function: A concentration alarm, CO peak count alarm, etc. Display: LCD with back light Recorder: 6-point recorder mounted (option) Power supply : 100V, 110V, 115V, 200V or 230V AC Outer dimensions: 800(W) x 1710(H) x 615(D) mm ● ● ● ● ● ● ● ● ● ● ● ● 3 Simultaneous Measurement of NOX, SO2, CO, CO2 and O2 for stack gas Type: ZSJ Japanese pattern approval SAS131 (SO2 meter) SAC131 (CO meter) SAN131 (NOX meter) SE981 (O2 meter) SF011 (O2 meter) FEATURES .................................................. ‌Fuji’s unique and innovative single-beam NDIR ensures excellent zero stability ‌Easy to operate with large LCD menu driven ‌Easy to maintain and all maintenance from the front side of the cubicle is available. SPECIFICATIONS ....................................... ● Measuring object: Exhaust gas of Incinerator and boiler, etc. ● Measurable components: NOX, SO2, CO, CO2, O2 ● Measuring system: Single-beam ‌ type infrared method (sample switching method) (O2: Zirconia method or Paramagnetic method) ● Measurement range: NOX: 0 to 50 ........... 5000ppm SO2: 0 to 50 ........... 5000ppm CO: 0 to 50 ........... 5000ppm CO2: 0 to 10 / 0 to 20% O2: 0 to 10 / 0 to 25vol% ● Repeatability: ±0.5%FS ● Linearity: ±1%FS ● Zero drift: ±1%FS/week (O2: ±2%/month) ● Span drift: ±2%FS/week (O2: ±2%/month) ● Response time: N  OX, CO, CO2, O2: 2 minutes, SO2: 4 minutes (90% response, from the device inlet) ● Output signal: 4 to 20mA DC ● Contact output: Auto calibration status, maintenance status, concentration alarm, CO peak count alarm, range identification of each component, etc. ● Contact input: Auto calibration start, range changeover, pump ON-OFF, etc. ● F  uto calibration, O2 correction, average value calculation,  unction: A concentration alarm, CO peak count alarm, etc. ● Display: LCD with back light ● Recorder: 6-point recorder mounted (option) ● Power supply : 100V, 110V, 115V, 200V or 230V AC ● Outer dimensions: 800(W) x 1710(H) x 615(D) mm Gas extractor ● Gas Sampling System Diagram example (ZSU type) or ゜ 15 Gas extractor (ZBAK type) e or m ＊1 Air inlet Flow checker 3-way solenoid valve 2-way solenoid Gas aspirator valve ＊1 Needle valve ◆ SPECIFICATIONS Infrared analyzer CO,CO2 Membrane filter NO2/NO converter 30kPa 0.5L/min Sample inlet of gas used: ● Temperature ‌ Max 800°C (SUS extraction tube) Max 1500°C (SIC extraction tube) Electrical heating ● System:  ● Material of extraction tube: SUS 316, or SIC + SUS 316 of extraction tube: ● Length  600 to 2000mm method: JIS 5K 65A flange ● Mounting  SUS 316 wire mesh ● Filter:  gas outlet: RC1/4 ● Sampling  ● Power supply voltage: 100V AC, 100 VA (for built-in heater) Sampling module Electronic gas cooler Infrared analyzer NOx,SO2 Solenoid valve Atmospheric air / Gas conditioner ZERO NO Air NO /N2 SO2 SO2 /N2 CO CO /N2 CO2 CO2 /N2 O2 Pressure regulator O2 /N2 (Air) (Zirconia type O2 analyzer) Standard gas Drain Filter-regulator 30kPa Instrumentation air inlet Simultaneous Measurement of NOX,SO2, HCℓ,CO, CO2,O2,Soot and Dusts for stack gas Exhaust Simultaneous Measurement of NOX, SO2, CO, CO2 and O2 for stack gas Type: ZSU-7 Type: ZSVF Japanese pattern approval SAS992-1 (SO2 meter) SAC992-1 (CO meter) SAN991-1 (NOX meter) SE981 (O2 meter) SF011 (O2 meter) FEATURES ................  Measurement can be taken by the infrared ray method (single beam type) having excellent stability and maintainability.  All functions are included in the small locker of 600 (W) × 515 (D) × 1710 (H) mm.  Zero and span auto calibration function is equipped as standard.  Space-saving configuration that is accessible for maintenance on the front panel of the analyzer. FEATURES ..................................................  A maximum 5 components out of NOX, SO2, CO, CO2, CH4 and O2 can be measured simultaneously.  The large LCD screen with clear display assures simple operation.  Single-beam infrared gas analyzer having excellent stability is adopted.  The separate structure allows the analyzer unite and the pretreatment unit to be placed separately.  Measurement can be taken continuously for up to 5 days. SPECIFICATIONS ....................................... ● Measuring object: Exhaust gas of Incinerator and boiler, etc. ● Measurable components: NOX, SO2, HCℓ ,CO, CO2, O2, Soot  and Dusts ● M  ual beam type infrared method  easuring system: D (O2: Zirconia method, HCℓ: Laser method) ● Measurement range: NOX: 0 to 50..................... 5000ppm  ● ● ● ● ● ● ● ● ● SO2: 0 to 50..................... 5000ppm HCℓ: 0 to 15ppm·m.......... 5000ppm·m CO: 0 to 50..................... 5000ppm CO2: 0 to 10 / 0 to 20% O2: 0 to 10 / 0 to 25vol% Soot and Dusts: 0.01 to 1000mg/m3 Repeatability:  ± 0.5 FS (infrared method),  ±2% FS (Laser method) Zero/span drift: ±2%FS/week  (O2: ±2% FS/month HCℓ : ±2% FS) Response time: NOX, CO, CO2, O2: 2 minutes,  SO2: 4 minutes HC ℓ :1 to 5 sec. (90% response, from the device inlet) Output signal: 4 to 20mA DC  Contact output: 8 point (Auto calibration status, maintenance status,concentration alarm etc.) Contact input: Auto calibration start, range changeover etc. Recorder: Paperless recorder mounted (option)  Power supply: 100V, 110V, 115V, 200V or 230V AC Outer dimensions: 1215(W) x 1780(H) x 700(D) mm  SPECIFICATIONS ....................................... ● ● ● ● ● ● ● ● ● ● ● ● ● ●  ombustion exhaust gas measurement, etc. Measuring object: C Measurable components: NOX, SO2, CO, CO2, CH4, O2  Measuring system: Singlel beam type infrared method (O2: Paramagnetic method or galvanic method) Measurement range: NOX: 0 to 500.............. 5000ppm SO2: 0 to 500.............. 1% CO: 0 to 200.............. 100% CO2: 0 to 200.............. 100% CH4: 0 to 2000ppm. ... 100% O2: 0 to 5 / 25% Repeatability: ±0.5%FS ±2%FS Linearity:  Zero/span drift: ±1%FS/day R  0 second for 90% response from the device  esponse time: 5 inlet but 3 minutes for SO2 Output signal: 4 to 20mA DC or 0 to 1V DC  Communication function: RS-232C (MODBUS) Functions: Auto calibration, O2 correction, average value calculation  Indication: LCD with back light Power supply: 1  00 to 115V AC or 200 to 240V AC, 50/60Hz  Outer dimensions: 365(W) x 574(H) x 514(D) mm 4 CROSS STACK Laser Gas Analyzer Fast measurement of NH 3 Gas or HCℓ, O 2, H2O , CO, CO 2, CH 4 Gas concentration in Stack Type: ZSS Transmitter unit Air purge Air purge 0.5 to 10m Stack Receiver unit Control unit Laser Beam NH3 CO HCℓ CO2 H2O CH4 O2 Power supply FEATURES ............................................................................................................................... Excellent Long-term Stability, and Maintenance-free! Zero drift: ±2.0%FS Highly absorptive and corrosive gasses can be measured in low concentration. Usable in high temperature and dusty environment. Fast response (1 to 5 sec.) is available, and integration with the control system is feasible. CO + O2 analyzer has joined our product line. Measurable components, HCℓ NH 3 HCℓ+H2O NH3 +H2O O2 CO CO2 CO+CO2 CH4 CO+O2 Min. measuring range 10ppm 15ppm 50ppm(HCℓ) 50ppm(NH3) 4vol% 2vol% 2vol% 2.5vol% 100ppm CO: 200 ppm O2: 4 vol% Max. measuring range 5000ppm  5000ppm 1000ppm(HCℓ) Note 1) 1000ppm(NH3) Note 1) 100vol% 50vol% 50vol% 50vol% 50vol% 50 vol% 100 vol% Note 1) The H2O range is fixed to 50 vol% Case example of field measureing data HCL 140 120 HCℓ （ppm） Measurable components measurable range Approximately Approximately Approximately Approximately 8 minute 8 minute 8 minute 8 minute 100 80 60 40 20 Cross stack laser gas analyzer 0 16：00 17：00 Ion electrode system (Sampling conduit: Approximately 20m) 18：00 19：00 Time SPECIFICATIONS .................................................................................................................... 5 items (Outside the range of upper/lower limits, insufficient quantity of light received, device fault, on hold) Measurement principle Non-dispersive infrared absorbance system(NDIR) Power supply voltage 100 to 240VAC approx. 80VA Installation system Cross stack system Ambient Receiver/transmitter units -20 to 55˚C, Laser class CLASS 1M temperature Controller unit -5 to 45˚C, 90%R.H. or less Measuring light path length 0.5 to 10m (CO+O2 : 0.5 to 5 m) Measuring gas 1200˚C max. ±1.0% FS (CO+O2 : ±2% FS) Repeatability temperature Measuring gas pressure ±10kPa Zero/span drift ±2.0% FS (CO+O2 : ±4% FS/6 months) 1 to 5 seconds(90% response) Response time Outside dimensions Receiver unit (180×400×155mm) 4 to 20mADC, 0 to 1VDC, 0 to 5VDC or (D×W×H)mm Analog output Transmitter unit (240×400×160mm) 0 to 10VDC (depending on specification) Controller unit (135×240×320mm) 4 to 20mADC (2 or 6 points) Analog input Mass Receiver/transmitter units (approx. 10kg each), Communication function USB or RS-485 (MODBUS) control unit (approx. 8kg) Contact input 3 items (Average value reset, remote hold, remote range switching, Mounting method Control unit (mounting on wall or piping), (option) instantaneous value/average value switching) receiver/transmitter units (mounting on flange) Measurable gas HCℓ, NH 3, HCℓ+H 2O, NH 3+H 2O, O2 CO, CO2, CH4, CO+CO2 5 Contact output Infrared Type Gas Analyzer (Component) Measuring method Single beam system Type ZRE ZRJ ZPA ZPB ZPG ZKJ Dual beam system ZRC6 0 to 100ppm Appearance Measurable gas components & minimum range NO 0 to 200ppm 0 to 500ppm 0 to 200ppm 0 to 50ppm 0 to 10ppm 0 to 50ppm SO2 0 to 200ppm 0 to 500ppm 0 to 200ppm 0 to 50ppm 0 to 10ppm 0 to 50ppm 0 to 100ppm CO 0 to 200ppm 0 to 200ppm 0 to 200ppm 0 to 50ppm 0 to 5ppm 0 to 50ppm 0 to 100ppm CO2 0 to 100ppm 0 to 500ppm 0 to 100ppm 0 to 50ppm 0 to 5ppm 0 to 20ppm 0 to 50ppm CH4 0 to 500ppm 0 to 1000ppm 0 to 500ppm - - 0 to 200ppm - O2 meter built in 0 to 5% 0 to 5% 0 to 5% 0 to 5% 0 to 5% 0 to 5% - 1 to 5 1 to 4 1 to 5 1 to 5 1 1 to 5 1 Number of measurable gas components 0.5% of full scale Repeatability Within 2% of full scale/week Zero drift Within 0.5% of full scale/week Within 2% of full scale/week Within 2% of full scale/week Span drift Within 60 seconds Response speed (90% response) Within 15 seconds / 2 components Within 30 seconds / 4 components Within 10 to 30 seconds Within 60 seconds Within 30 seconds Within 20 seconds Analog 4 to 20mA DC l l ● ● ● l l output 0 to 1V DC l l ● ● ● l l RS485 (Option) lRS232C (Option) - Communication interface lRS485 (Option) lRS232C (Option) Contact output l l lOption lOption lOption l - Contact input lOption l lOption lOption lOption l l Automatic calibration lOption l lOption lOption lOption l - Upper/lower limit alarm lOption l lOption lOption lOption l - Average calculation lOption lOption lOption lOption lOption lOption - O2 correction lOption lOption lOption lOption lOption lOption - CO peak count - lOption lOption lOption lOption lOption - 483×177×690 433×176×229 Function - LCD with back light Indication 100 to 240V AC Power supply Outer dimensions (W x H x D) mm 483×133×418 483×177×493 483×133×382 Compact type infrared gas analyzer Type: ZSVS SPECIFICATIONS ....................................... ● Measurable components: CO2, CO, CH4 and O2  ● Measuring system: S  ingle beam type infrared method (O2: galvanic cell method) ● Measurement range: 0 to 200 --------100%CO2  FEATURES .................................................. ‌The gas concentrations of 4 components among CO2, CO, CH4 and O2 measured simultaneously and continuously with a single gas analyzer. ‌Transportable with built-in pump, filter and flow meter. ‌Provided with computation functions such as CP calculation, O2 correction, moving average, etc. ‌Smooth operation in an interactive way through a large-size LCD. ‌Excellent in long-term stability and easy maintenance using single beam system. ● ● ● ● ● ● ● ● ● 0 to 200 --------100%CO 0 to 100 --------100%CH4 0 to 5/25%O2 Numbers of range: Max. 3 ranges  Measurable components:Max. 4 components  Repeatability: Drift: Within ±1.0% of full scale/day  Response time: L  ess than 50 seconds  (90% response from the gas inlet) 4 to 20mA DC or 0 to 1V DC Output signal:  Communication function: RS232C (MODBUS)  ‌Standard function: CP calculation, O2 correction, O2-corrected moving average value, automatic OFF, etc. Indication: LCD with back light  Outer dimensions: 365(W) x 211(H) x 527(D) mm  ● Power-supply voltage: 100 to 115V AC or 200 to 240V AC  6 ZIRCONIA OXYGEN ANALYZER O2 This type of oxygen analyzer is capable of measuring oxygen gas even without a gas aspirator, gas cooler, etc. Optimum for combustion control of boiler, refuse incinerator, sludge incinerator, heating furnace, etc. Self stand type IP66 Type IP67 Type Self-stand type accommodating necessary devices. Type: ZSB FEATURES ..................................................  Automatic calibration and manual/auto blow-down functions are provided. A solenoid valve and other necessary devices are incorporated.  Measuring range is freely settable within 2 to 50%.  Incomplete combustion level indication is selected when oxygen becomes inadequate. SPECIFICATIONS ....................................... ● ● ● ● ● ● ● ● ● ● ● ● ● ● ● Measuring object: Oxygen in combustion exhaust gas Measuring range: 0 to 2-----50vol% O2 (freely settable)  Repeatability: ±0.5%FS ±2%FS Linearity:  Response time: Within 10 seconds (From calibration gas inlet) Oxygen concentration output signal: 4 to 20mA DC or 0 to 1V DC  Contact output: 4 points (1a relay contact) Upper/lower limit alarm, maintenance status, blow down status, contact output during calibration Contact input: Auto calibration start, inhibit calibration Indication: Oxygen concentration display (3-digit LED), mode  display (3pcs LED), operation/setting display(16digit, 2-line LCD) Combustion efficiency display: Option Communication interface: RS485 (option) Calibration method: Automatic, manual by key operation, input  from external contact Power supply: 100, 115 or 230V AC 50/60Hz  Construction: Pipe stand type or wall mounting type Cable length from converter part to detector: 20m, max.  ZKM-type System Diagram Blow-down air pressure inlet Detector type: ZFK8 7 type: ZKMA type: ZKMB FEATURES .................................................. ‌Modular detector design allows easy field replacement of zirconia element.  High-speed response of 4 to 7 seconds.  Case structure available in two types: IP66 and IP67.  May be programmed without opening the case cover (ZKMA). SPECIFICATIONS ....................................... ● ● ● ● ● ● ● ● ● ● ● ● ● ● ● Measuring object: Oxygen in combustion exhaust gas Measuring range: 0 to 2-----50vol% O2 (freely settable)  Repeatability: ±0.5%FS ±2%FS Linearity:  Response time: 4 to 7seconds (from inlet for calibration gas) Oxygen concentration output signal: 4 to 20mA DC or 0 to 1V DC  Contact output: 6 points (1a relay contact)  Alarm, instrument error, under maintenance, under blow down, zero gas span for out put calibration. Input contact: 3 points (no voltage contact) Blow down, starting calibration, heater OFF,  range change, external hold Concentration value indication: Digital indication in 4 digits  Combustion efficiency display: Option  Communication function HART or RS485 (MODBUS) Calibration method: Automatic, manual by key operation, input  from external contact Power supply: 100 to 120V AC or 200 to 240V AC 50/60Hz  Mounting method : Mounting on panel surface, or pipe stand Cable length from converter part to detector: 100m, max.  Transmitter: Type ZKMA Dedicated cable (signal, heater power) (up to 100m) Calibration gas inlet Detecting unit Compact and High capacity Detector: Type ZFK8 Measured gas Frame-proof Type Power supply voltage HART or RS-485 Output signal 4 to 20mA DC Paperless recorder PHF Relay contact output 6 points (Upper/lower limit alarms, during maintenance, during blow-down, device error) Contact input signal 3 points (Automatic calibration start, Automatic blow-down) SSC A flow guide tube skillfully utilizing the flow of the measured gas assures fast response. Flow guide tube Ceramic filter Heater Detectors applicable for various fields Flange Reference gas Measured gas Various combinations of detector and flow guide tube have been prepared for use under different site conditions. Note) Blow-down refers to a function for blowing away the dust accumulating in the flow guide tube of detector unit by compressed air. Output Electrode Zirconia element Application Temperature Gas flow Boiler, etc. 600°C or less 5 to 20m/s (General- purpose) Garbage incinerator, 600°C or less 5 to 20m/s Sludge incinerator (For anti-corrosion) Dust Below 0.2g/Nm3 Below 10g/Nm3 Below 1g/Nm3 Below 10g/Nm3 Below 25g/Nm3 Below 25g/Nm3 800°C or less 1m/s or less Below 1g/Nm3 1500°C or less 1m/s or less Below 1g/Nm3 Remarks Fuel: Gas, oil Fuel: Coal Small amount of moisture in gas Heating furnace (General- purpose) Small amount of moisture in gas Detector type: ZFKE  Modular detector design allows easy field replacement of zirconia element.  High-speed response of 4 to 7 seconds.  May be programmed without opening the case cover.  Flame-proof type available for explosive atmospheres TIIS Exd IIB T6, NEPSI/Eexd IIC T6 ExII2G SPECIFICATIONS ....................................... ● ● ● ● ● ● ● ● Adaptable detector/flow guide tube General-purpose With blow-down nozzle For anti-corrosion For anti-corrosion with blow-down nozzle For anti-corrosion high dust For anti-corrosion high dust with cover With ejector With ejector Conveter type:ZKME FEATURES .................................................. ● 800 to 1500°C: with ejector Mounting method JIS 5K 65A JIS 5K 80A JIS 5K 65A JIS 5K 80A JIS 5K 80A JIS 5K 80A JIS 10K 65A JIS 10K 65A Zirconia O2 analyzer for ZRJ, ZKJ, ZRE(Built-in type) Flame-proof type ● ● ● ● ● ● Standard type Measuring object: Oxygen in combustion exhaust gas Measuring range: 0 to 2-----50vol% O2 (freely settable)  Repeatability: ±0.5%FS Linearity: ±2%FS  Response time: 4 to 7seconds (from inlet for calibration gas) Oxygen concentration output signal: 4 to 20mA DC or 0 to 1V  DC Contact output: 6 points (1a relay contact)  Alarm, instrument error, under maintenance, under blow down, zero gas span for out put calibration. Input contact: 3 points (no voltage contact) Blow down, starting calibration, heater OFF, range change, external hold Concentration value indication: Digital indication in 4 digits  Combustion efficiency display: Option Communication function RS232C or RS485 (MODBUS)  Calibration method: Automatic, manual by key operation, input from external contact Power supply: 100 to 120V AC or 200 to 240V AC 50/60Hz Mounting method : Mounting on panel surface  Cable length from converter part to detector: 100m, max. Easily replaceable zirconia element Type: ZFK7 The combination table of NDIR gas analyzer and Zirconia O2 analyzer NDIR gas analyzer Zirconia O2 analyzer ZRJ ZFK7 ZKJ ZFK7 ZRE ZFK7 ZPA ZFK7 ZPB ZFK7 ZPG ZFK7 SPECIFICATIONS ....................................... ● Measuring system: Zirconia method  ● Measurement range: 0 to 25% ● Repeatability: ±0.5%FS  ● Zero drift: ±1%FS/week  ● Span drift: ±2%FS/week  ● Response time: Within 20 seconds (From calibration gas inlet)  ● Power supply: 100 to 115V AC or 200 to 240V AC, 50/60Hz ● Outer dimensions: 170(W) x 140(H) x 190(D) mm 8 PARAMAGNETIC OXYGEN ANALYZER O2 Paramagnetic oxygen analyzers maintaining quick response unaffected by combustible gases. Most suited for combustion control of heat treatment furnaces and combustion furnaces, and for chemical experiment. Fast response type Reference gas needless type 2-second fast response ZAJ-type Type: ZAJ ● ZAJ Type Gas Sampling System Diagram (Combustion exhaust gas example) Buffer tank Flow checker Gas extractor Membrane filter Atmosphere Sample gas tube Pressure alarm unit Mist filter ZAJ Analyzer-unit Electromagnetic valve Pump Safety drain trap Electromagnetic valve Electronic gas cooler Drain FEATURES .................................................. Response as high as 2 seconds. Hardly affected by other gases (such as H2 and CO2). A suppression range such as 21 to 100% O2 is settable. Gas-contacting parts are made of corrosion-resisting material Automatic calibration function and communication function can be incorporated (at option). SPECIFICATIONS ....................................... Span gas cylinder ZBM Regulation valve Note) Zero gas cylinder ZBM Reference gas cylinder ZBM Polyethylene tube Cupper pipe (6/(4 Exhaust ● ZAJ Type Measuring Principle Diagram When the measured gas is placed in a magnetic field, oxygen molecules will be attracted. This gives rise to a pressure, which is detected by a mass flow sensor. ● Measuring principle: Paramagnetic method (Pressure detect type) Magnetic field ● Measurement range: (1) When reference gas is N2 ● ● ● ● ● ● ● ● ● ● ● ● ● ● 9 0 to 2 --------100%O2 (freely settable) (2) When reference gas is air 21 to 23 -----100%O2 or 21to 19 ---------0%O2 (freely settable) (3) When reference gas is 100%O2 100 to 98 -------0%O2 (freely settable) Numbers of range: 2 ranges Repeatability: ±0.5%FS (in 10%O2 or higher range) Linearity: ±2%FS Response time: Within 2 seconds (From sample gas inlet) Oxygen concentration output signal: 4 to 20mA DC or 0 to 1V DC Moving average time: 0 to 99.9 seconds Contact output: 2 points (1a relay contact) Calibration status, contact output of analyzer error Contact input (Option): Remote range changeover, output hold Indication: LCD display, Oxygen concentration display (4-digit),range display(4-digit), message display (24-digit, 2-line) Alarm output: Upper/lower limit alarm (Option) Communication interface: RS232 (Option) Automatic calibration method: Zero/span automatic calibration function (option) Power supply: 100 to 240V AC, 50/60 Hz Mounting method: Mounting on 19-inch rack, flush mounting on panel or desk top mounting Reference gas pipe Sample gas Measurement cell Mass-flow sensor Reference gas Scarcely affected by interference gasses ZAJ type case (Deviation of zero point caused by flowing interference gas component at 100%) Interference gas NO CO CO2 CH4 He H2 HCL NH3 SO2 N 2O H2O Deviation in O2% +43 +0.01 -0.27 -0.20 +0.30 +0.24 -0.30 -0.26 -0.22 -0.02 -0.02 Reference gas needless ZKG-type ● ZKG type Gas Sampling System Diagram (Boiler exhaust gas example) Gas extractor Type: ZKG Sample gas tube Mist filter Drain separator Flow meter 0.5L/min Changeover valve Gas aspirator Membrane filter 0.3µm or less ZKG Oxygen analyzer Electronic gas cooler Pressure regulator Regulation valve Safety drain trap Response as high as 15 seconds. Hardly affected by other gases (such as H2 and CO2). The front area measuring 220 x 443 mm is mounted flush with a panel. SPECIFICATIONS ....................................... Purge gas (as necessary) O2 Zero gas Span gas Standard gas for calibration Exhaust + drain FEATURES .................................................. N2 Exhaust Atmosphere air open ● ZKG type Measuring Principle Diagram There are two glass spheres in the cell. When oxygen molecules flow there, they will be attracted toward the stronger magnetic field to cause a positional change of the spheres. The displacement of the spheres is detected with a light receiving element. Suspension wire ● Measuring principle: Paramagnetic method (Dumbbell type) ● Measurement range: 0 to 10,25,50,100%O2 (as specified) Magnetic pole ● Numbers of range: 1 or 2 ranges (as specified) ● Repeatability: ±0.5%FS ● Linearity: ±1.0%FS ● Zero drift: ±2.0%FS/week 2-consecutive ball (Dumbbell) ● Span drift: ±2.0%FS/week ● Response time: Within 15 seconds (From calibration gas inlet) ● Oxygen concentration output signal: 4 to 20mA DC or 0 to 1V DC Feed back coil Magnetic pole ● Indication: 4-digit LED (Oxygen concentration indication) in red ● Power supply: 100 to 240V AC, 50/60 Hz Reflecting mirror Infrared ray source Photo detector ● Mounting method: Mounted flush on panel ● Outer dimensions: 190(W) x 240(H) x 234(D) mm Biomass gas analyzer Type: ZPAF ● Response (90 %FS): 10 to 30 sec. (H2S: 180 sec.) ● Analog output: 4 to 20 mA DC or 0 to 1 V DC ● Contact output: 1c contact (max. 15 points) ● Contact input: Voltage input (12 to 24 V DC) up to 9 points ● Power supply voltage: 100 to 240 V AC, 50/60 Hz  Constant-potential electrolytic sensor (for H2S) Reference electrode O2 H2S (1) Reaction at the working electrode (1) Reaction at the working+electrode − + +H 4→ 8H H2S + 4H2O→ H2SH+2SO 4H2O 2SO4++ 8e 8H + 8e OP Amp Current detection FEATURES .................................................. Simultaneously and continuously monitors H2S, CH4, CO2, and O2 A wide variety of optional functions Automatic calibration, concentration alarm for upper and lower limit, remote input for switching range, range identification signal output, etc. Compact and lightweight 133 × 483 × 382 mm (H×W×D),approx. 9 kg SPECIFICATIONS ....................................... ● Principle: CH4, CO2 (Single beam NDIR sensor) ● ● ● ● O2 (Galvanic cell sensor) H2S (constant-potential electrolytic sensor) Components/range: Component 1st range 2nd range CH4 0 to 20 vol% 0 to 100 vol% CO2 0 to 20 vol% 0 to 100 vol% H2S 0 to 500 ppm 0 to 2000/5000 ppm O2 0 to 10 vol% 0 to 25 vol% Repeatability: ±0.5 %FS (H2S: ±2.0 %FS) Zero drift: ±2 %FS per week Span drift: ±2 %FS (H2S: ±2.5 %FS) Counter Working electrode electrode Battery for reference electrode (2) Reaction at the counter electrode (2) Reaction at the counter electrode + + O2 −+→ 4H O2 + 4H + 4e O → 2H2O 2H+24e (3) Total reaction (3) Total reaction H2S + 2O2 → H2SO4 H2S + 2O2→H2SO4  H2S measurement Gas flow SV1 Sample gas (H2S) Electricity Constant-potential electrolytic H2S sensor com No. NC V Selector valve Air com SV2 Amp NC Exhaust No. Microprocessor SSR A/D conversion Control signal Output As the H2S sensor uses constant-potential electrolytic method, there must be oxygen included in the sample gas. Therefore, air is supplied to the sensor at regular intervals to enable gas analysis in biogas plants where oxygen is absent, and thus stable readings are provided. 10 Gas analyzer for heat treatment furnaces CO2 CONTROLLER Protected Horticulture For growing sweet melon and strawberry in greenhouse. Gas sampling system Flow meter Storage of Fresh Produce P Air inlet To create optimum environment for storage of fruit and vegetables. Pump Sample gas inlet Filter Building Air-conditioning Cock P Analyzer Controller Filter For control of room ventilation in a building and save energy due to cooling and heating. Zero gas INFRARED CO2 CONTROLLER with pomp built-in Exhaust Membrane filter Pot Span gas Control valve Recorder Gas analyzer for heat treatment furnaces Type: ZFP Type: ZFG FEATURES ..................... ‌Gas concentration in the furnace can be measured accurately. Repeatability: Within ±0.5% of full scale ‌Due to use of single beam system for measurement, an excellent stability is ensured for a long period of time and maintenance is easy. ‌The analyzer is capable of measuring gas concentrations of CO2, CO and CH4 components correlated to CP (carbon potential). ‌CP calculation value can be displayed (option). ‌The gas concentrations of 2 components of CO2 + CO, CH4 + CO, CO2 + CH4 can be measured simultaneously and continuously. Aspirating pump, filter built in FEATURES ..................................................  With built-in suction pump and filter.  Two 1c (SPDT) relay contacts incorporated.  Analog output signal incorporated. SPECIFICATIONS ....................................... ● Measuring object: CO2 concentration in air ● Measuring system: Single beam type infrared method range: 0 to 0.2 ---- 20% ● Measurement  ±1.0% of full scale ● Repeatability:  drift: ±10% of full scale/6 months ● Zero  ● Response speed: Within 10 seconds (90% response) ● Concentration output signal: 4 to 20mA DC or 0 to 100mV DC output: Relay contact (2x1c) Upper limit, lower limit ● Alarm  Moving coil type, JIS 2.5 class ● Indicator:  sampling: Aspirating pump, filter built in ● Gas  ● Power supply: 100V, 115V, 200V, or 220V AC, 50/60Hz ● Sample gas temperature: 0 to 50°C ● Outer dimensions: 220(W) x 257(H) x 85(D) mm (Weight): Approx. 3kg ● Mass  SPECIFICATIONS ....................................... ● Measurable components: CO2, CO, CH4  ● Measuring system: Single beam type infrared method  ● Measurement range: CO2 : 0 to 0.5 ...... 100% ● ● ● ● ● ● ● ● ● ● ● ● Recorder (Option) Paperless Recorder CO : 0 to 0.5.......100% CH4 : 0 to 1............10% Numbers of range: Max. 2 ranges Measurable components:Max. 2 components  Repeatability: ±0.5% FS  Drift: Within ±2.0% of full scale/week ‌ than 10 seconds (90% response from the Response time: Less device inlet) Output signal: 4 to 20mA DC or 0 to 100mV, 10mV DC Contact output: Instrument error, range identification signal  Contact input: Remote range changeover, remote hold input  ‌ calculation, output signal holding, Automatic Functions: CP OFF, etc Indication: LCD with back light  Outer dimensions: 218(W) x 211(H) x 257(D) mm Power-supply voltage: 100 to 240V AC, 50/60Hz  ◆ SPECIFICATIONS ● Recording method: Built-in memory card ● Data ‌ format: ‌ASCII (Data can be read directly into Excel), Binary (Data cannot be read directly into Excel) ● Storage ‌ capacity: 1GB, max. (Stores 8years data). ● Input points: 3 or 6 points  ● ‌Display contents: Trend, bar graph, digital, historical trend, event summary, etc. 11 ● Alarm ‌ indication: ● ● ● ● ● Type: PHF Upper/lower limit alarm indication (alarm output is option) ‌Input signal: ‌Thermocouples, resistance bulbs, voltage/current ‌Indication accuracy: ±(0.15%+1 digit) of input range ‌Power supply: 100 to 240V AC ‌ Outer dimensions: 160(W) x 144(H) x 185(D) mm ‌ Others: Standard-supplied PC support software Thermal Conductivity Gas Analyzer Type: ZAF ● Measuring principle Measuring chamber Sample gas Reference chamber Frameproof Type (NEPSI) FEATURES ..................................................  Easy-to-see large LCD is helpful for efficient operation.  Measured value output signals are linearizable (at option).  Line voltage lies within 100 V to 240 VAC, 50/60 Hz.  Zero point and span can be automatically calibrated (at option).  Other gases interference is correctable (at option).  Commuticable with other system through an RS-232C interface (MODBUS™)(at option). SPECIFICATIONS ....................................... ● Measuring principle: Meaturement of thermal conductivity  ● Measurement component: He, Ar, H2, CH4, CO2 ● Measurement range: Refer to Table 1 ● Repeatability: ±1%FS  ● Drift: Within ±2% of full scale/week ● Response time (90% response) : ‌High speed type within 10 sec Standard type within 60 sec ● Output signal: 4 to 20mA DC or 0 to 1V DC, 0 to 10 mV DC ● Display unit: LCD with backlight ● Mounting: Flush mounting on panel  ● Power supply: 100 to 240V AC, 50/60 Hz ●‌‌‌Optional specifications: Linearization Relay contact output Contact input Interference gas meatured value input Automatic calibration function Communicating function DC constant current DC amplifier Fixed resistor Thermal Conductivity Ratio of Gases Gases Sulfur dioxide gas Carbon dioxide gas Argon Carbon monoxide Steam (100°C) Air Nitrogen Oxygen Methane Hydrogen Example of gas measurement in industrial furnace sintering furnace, etc. Suction pump OFF signal in automatic calibration Sample gas (Note 1) Flow checker Gas aspirator Mist filter Exhaust Measured Reference gas gas component (Note 1) H2 N2, (CO2, Ar, He) He Ar CH4 Zero calibration signal Solenoid valve 1L/min Purging air or nitrogen Pressure reducing valve Span gas Zero gas (Note 1) Dust must be purged adequately (for protection of the pump, flowmeter, etc.). (Note 2) Unnecessary if sample gas is dry. (Note 3) Select the one with no pulsating flow within the specified flow rate range. AUTOMOBILE EXHAUST GAS ANALYZER Type: ZKE Measurable range 0 to 3, 5, 10, 20, 50, 80, 100% 100 to 90, 100 to 80% N2, (CO2, Ar) O2, Air 0 to 5, 10, 20, 30, 40, 50, 80, 100% 100 to 90, 100 to 80% N2, O2, Air, (He) 0 to 10, 20, 50, 80, 100% 100 to 90, 100 to 80% N2, (CO2, Ar, He) 0 to 20, 40, 50, 60, 80, 100% 100 to 80% N2, O2, Air, (He) 0 to 10, 20, 50, 100% 100 to 90, 80% Range ratio (Note 2) 1 : 10 1 : 10 1:5 1:5 1:5 (Note 1) The parenthesized gases require inquiry. (Note 2) Range ratio stands for maximum value. Indication error of each measured value (vol%) Mist filter Span calibration signal Drain pot N2 O2 CH4 H2 Other gases' interference ZAF 0.4L/min (Note 3) or 1L/min Peltier gas (Note 2) cooler (Note 2) Membrane filter SO2 CO2 Ar CO H2O Comparative thermal conductivity (0°C) when replacing thermal conductivity of air (2.41 x 10-2 w/(m.k)) with 1 Table 1: Measurable Component and Measureble Range CO2 ● Gas sampling system diagram (example) This thermal conductivity gas analyzer measures gas concentration by utilizing the different thermal conductivities of 2 gas components. In the detector, there are reference and measuring chambers in each of which a thin platinum wire is stretched. The reference chamber is filled with reference gas and through the measuring chamber, sample gas is flowed. Each platinum wire composes a bridge circuit in combination with an external fixed resistor, and it is heated by flowing a constant current. When there is a change in the concentration of the component under measurement, the thermal conductivity of sample gas will change to affect the temperature of the platinum wire in the measuring chamber. The resulting thermal change is taken out as a change in electric resistance, according to which the concentration of measured gas is calculated. Interference He component meter H2 1% CH4 1% +0.17 -0.31 SO2 1% -0.15 Ar 1% -0.125 CO2 1% O2 1% +0.019 H2O 1.5°C saturation ◆ SPECIFICATIONS components: H  C, CO, ● Measuring  CO2, O2 ● Measurement range: HC: 0 to 10000ppm CO: 0 to 10% CO2: 0 to 20% O2: 0 to 25% ● Measuring method: Infrared ray system CH4 meter +5.8 -1.8 -0.87 -0.725 +0.11 - Ar meter -6.5 -1.15 +2.1 +0.83 -0.125 - CO2 meter -8.0 -1.38 +2.5 +1.2 -0.15 -0.56 O2: Galvanic sensor ● Certification number: JATA-CO, HC-5 Communication interface: RS232C Indication: LCD with back light  Power supply: 90 to 264V AC   70(W) x 156(H) Outer dimensions: 2 x 365(D) mm ● Mass (Weight): Approx. 5kg ● ● ● ● 12 Basic Principle = NDIR *NDIR: Non Dispersive Infrared Ray structure Certain gas absorbs certain range of infrared ray It makes internal pressure in the left detector higher than one in the right detector. By blocking the ray, the pressure in both detectors is equalized. The changing volume of absorbing infrared ray is detected. ● Infrared Second component detector single light source Interference compensating detector There is less fluctuations of indication caused by the time lapsed of light source due to single source and dual beam Detector method. P+P Single Light Source Provides ● P L  ong Term Stability: ±0.5% to 2% FS/week Sample gas against dual light source. ↑ Both sources cannot be exactly same ↑ It creates error in measurement Our test data of span drift for 28 days: Less than 1%FS 100.0 Reference Cell 96.0 94.0 92.0 90.0 0 day 7th day 14th day 21st day 28th day Sample Cell (97.1ppm SO2 /N2) 98.0 Sample gas ● Drum type sector Distribution cell Motor 13 ● ● Interference Compensating Detector Eliminates Interference of Moisture Cross sensitivity to moisture: Less than 2 ppm at 2°C of satulated H2O ↑ Twin detector (Main detector + IC Detector) realizes excellent compensation. Interference of moisture & CO2 for NO measurement without ICD 100ppm NO Saturated H2O at 0°C with gas filter 15% CO2 with ICD 0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 1.8 2 Principle of the sample switching system Gas analyzer (ZPB) ● Mass-flow sensor Basic Principle Sample gas SV1 com NC Resistance measurement (Detecting Temp. change by Pressure change) ● No moving parts ● Great Noise proof due to low impedance sensor ● High sensitive sensor introduces good linearity ● Impure gas in detector which causes interference can be removed by making full vacuum condition. NO Channel diversion solenoid NC Reference valve gas com NO (N2 or zeroSV2 equivalent air) Infrared light source Sample cell Detector Exhaust Motor Chopper Infrared light source Sample cell Detector Motor Chopper Mass Flow Sensor Offers 1) Excellent Linearity: ±1%FS 2) High Rangeability : 20 to 1 against condensor microphone (10 to 1) 3) Less Effect by Vibration No moving mechanical parts NC：Normal close NO：Normal open This product uses the sample switching system and state-of-the-art signal processing, allowing for stable low-concentration measurements. ● Single beam infrared analyzer (ZRE, ZPA, ZPB, ZPG, ZRJ, ZFP) wind Detector 1mm sq Detecting element of wind velocity of heat wire. Mass flow sensor Measuring gas Temperature of Heat wire Infrared ray source Measuring cell Chopper Calm situation Sensitivity of detection in case of the wind from left side Sensitivity of detection in case of the wind from right side The dose of infrared-rays absorbed by measuring cell is detected with mass flow sensor. High sensitivity / High stability / High vibration proof. Super compact / Non-moving part 14 Gas Sampling System Diagram (Examples) System components can be coordinated so as to match your application by utilizing rich experience. ● ZRE Type (Gas measurement example of industrial furnaces, CA storage, etc.) ● ZKJ Type (5-component gas measurement example of industrial furnaces, CA storage, etc.) Gas extractor Sample gas ZRE type main unit Exhaust Primary filter Gas aspirator Safety drain trap Four-way changeover cock ZKJ main unit Membrane filter Gas conditioner Drain pot Standard gas for zero calibration NO2 /NO converter (NOx measuring time) Electronic gas cooler Ball valve or NO /N2 Flow checker Sample gas Gas aspirator Note 1 Membrane filter 0.4L/min ZAF type main unit O2 /N2 Flow meter P Pump Standard gas span Standard gas zero → Note 2 CO /N2 Gas sampling system Exhaust → Electronic gas cooler CO2 /N2 ● ZFG Type (Heat treatment furnaces) Air inlet Note 2 SO2 /N2 Standard gas (3.4L) Drain furnaces, sintering furnace, etc.) SO2 CO2 CO Electromagnetic valve O2 Decompression valve N2 Air ● ZAF Type (Gas measurement example of industrial Membrane filter CO,CO2 (O2) Infrared gas analyzer NO,SO2 ZERO NO Exhaust Standard gas for span calibration Flow meter Gas aspirator Flow meter Electronic dehumidifier Drain 100V AC Sample gas tube 15°C or higher Secondary filter Sample gas inlet Cock P Filter Analyzer Controller Filter Drain pot Exhaust Membrane filter Pot Zero gas Span gas Recorder Note 1) Remove dust enough (to protect pump, flow meter, etc.) Note 2) Unnecessary when sample gas is dry. Gas Sampling System Instrument ● Gas extractor (model: ZBA) ● ‌Gas Filter, Gas washing separator, ● Peltier gas cooler (model: ZBC) ● ‌Flow meter and regulator ● ‌Ball valves and selector valves ● Gas aspirator (model: ZBG) ● Drainings & other (model: ZBH) ● Gas converter (model: ZDL) ● Standard gas (model: ZBM) (model: ZBD) washing nozzle SO3 Mist catcher (model: ZBB) (model: ZBF) (ZDL03) (ZDL21) 15 (ZDL04) Gas dryer (model: ZBJ) Control valve Applications of Analyzer Application Measured gas Model SO2, NOX, O2, NH3 ZSU, ZSS, ZSJ SO2, NOX, O2, HCR ZSU, ZSS, ZSJ SO2, NOX, O2 CO, HC, CO2, O2 methanol, CO2 CO2, O2 He ZSU, ZSV ZKE ZRJ, ZSV, ZRE, ZPA ZFP, ZKM, ZRJ, ZSV, ZRE, ZPA ZAF CO2, O2 ZFP, ZRJ, ZRE, ZSV Iron and steel Blast furnace Converter funacer Heat treatment furnace Sintering (pellet equipment) Coke oven (CDQ) O2, Ar, He, CO CO, CO2, H2, O2 CO, CO2, H2, O2 CO, CO2, O2 CO, CO2, O2 CO, CO2, H2, O2 Saving energy Boiler, Heat treatment funacer O2, CO2, CO ZAJ, ZAF, ZRJ, ZRE, ZPG, ZPB ZAF, ZAJ, ZRJ, ZRE, ZPB ZAF, ZAJ, ZRJ, ZRE, ZKM ZKM, ZRJ, ZFG ZRJ, ZAJ, ZRE, ZPA ZAF, ZRJ, ZRE, ZPA ZKM, ZSB, ZRE, ZPA ZRJ, ZSQ, ZSU, ZSV, ZSJ Air pollution Biochemistry (microbes) Ultra-low temperature Storage and maturation of fruits Gas separation Hazard prevention Ceramic industry Water and Sewerage water Thermal treatment Agriculture Chemistry Electronics Environmental safeguard Various scientific experiments Fuel cell Bio mass energy Incinerator Desulfurization and denitration of exhaust gas General combustion furnaces (including boilers) Diesel generation Automobile exhaust gas For fermentation Incubator Superconduction device Detection of explosive gas (hydrocarbon gas and others) Analysis of gases produced through combustion of new building materials Marine inert gas analysis Tunnel kiln Cement Sewerage incinerator Generating furnace Carburization furnace Annealing furnace Nitration furnace Green house Reserch of photo synthesis Oil refining plant Petrochemical plant Gas production plant Solder furnace Concentration in tunnel Parking area Building management Building ventilation system SO2, NOX, CO, CO2, O2 ZSQ, ZSU, ZSJ HC ZRJ CO, CO2, HC, O2 ZRJ, ZRE CO2, O2 CO, O2 CO, CO2, O2 SO2, NOX, CO, O2 CO2 CO2,CO, O2 CO2,CO, O2 NH3 CO2 CO2 CO, CO2, CH4 CO, CO2, CH4 CO, H2, He, Ar, O2, CO2 O2 CO CO, CO2 ZRJ, ZRE, ZKM ZRJ, ZAJ, ZRE, ZSV, ZPA ZRJ, ZAJ, ZRE, ZKG, ZPA ZSU, ZSJ ZRJ, ZRE, ZSV, ZPA ZRJ, ZRE, ZSV, ZPA ZRJ, ZRE, ZSV, ZPA ZSS ZFP, ZSV ZFP, ZRJ, ZRE, ZSV, ZPA ZRJ, ZRE ZRJ, ZRE ZAF, ZRJ, ZRE ZKM ZSA ZSA, ZFP, ZPB, ZPG CO2 ZFP Laboratory Various gases Gas generation for fuel cell H2, CH4, CO, CO2 CO, CO2, CH4, H2, O2 ZFP, ZAJ, ZRJ, ZSV, ZRE ZRJ, ZAF, ZRE ZRJ, ZAF, ZSV, ZRE 16 Examples of Application Most recommended for energy saving in airconditioning of buildings is a CO2 controller ! Damper Air-conditioning equipment Damper Residence district The CO2 gas concentration in a room is required to be within 1,000 ppm by law in Japan. To meet this, the fresh outdoor air is always taken in. Control of the air intake at an appropriate level will save energy to run the airconditioner for cooling and heating. Ambient air M1 M2 Measuring CO2 gas Control signal (Contact ON/OFF) CO2 controller ZFP CO/O2 gas analyzers effective for curbing dioxins emission from waste incineration plants. Continuous measurement of CO and O2 concentrations in exhaust gas is obliged by antipollution ordinance and dioxin regulation. Gas extractor Gas extractor NOX removal equipment Dust collector Gas cooling tower Incinerator Laser Gas Analyzer Measurement of NH3, HCR, O2 ZSB type ZSU type ZSJ type ZSQ type ZKM type Measurement of O2 Measurement of CO, O2 Measurement of NOX, SO2, CO, CO2, O2 NOx, SO2, CO and O2, HCℓ, NH3 gas analyzers indispensable for combustion control and exhaust gas regulation of boilers. Factories in an area under control of total air pollutant emission due to exhaust gas are obliged to measure NOx and SO2 continuously. Boiler fuel: oil Laser Gas Analyzer Gas extractor Dust collector, bug filter Air heater Measurement of NH3, HCR, O2 ZKM type ZSB type O2 measurement 17 ZKM type ZSB type Measurement of O2 ZSU type ZSJ type Measurement of NOX, SO2, CO, CO2, O2 Infrared CO2 gas analyzers essential for measuring CO2 and O2 of heat treatment and reforming furnaces. Propane and butane gases are brought into contact with a hot catalyzer to generate the gases to be supplied into a carburizing furnace. These gas analyzers measure each concentration of CO2 and O2 gases to be supplied into a carburizing furnace. Source gas Air Reforming furnace Enrich gas Carbonizing furnace Gas sampling equipment CO2, CO, CH4, O2 analyzer Portable CO, CO2 meter Portable CO, CO2 meter ZRE type ZKJ type ZRJ type ZPA type ZSVS type ZFG type Heat treatment furnace Gas supplied from reforming furnace Gas sampling equipment CO, CO2 analyzer In iron treatment in a carburizing furnace, the CO2 concentration of the in-furnace atmosphere is an index of furnace work. ZSVS type Infrared CH4, CO2 and H2S, O2 gas analyzers optimum for bio-gas measurement. Alternative current wet refuse Front process facilities Methane fermentation tank Desulfurization device Gas sampling equipment Refiner Fuel buttery Gas sampling equipment H2S, CH4, CO2, O2 analyzer H2S, CH4, CO2, O2 analyzer ZPAF type ZPAF type Infrared CO2 and O2 gas analyzer for storage of foodstuffs such as vegetable and fruit. Foodstuffs can be kept fresh by controlling the CO2 and O2 concentrations properly in a storage house. Storage CO2 decomposition equipment Gas sampling equipment CO2, O2 analyzer ZRE type ZRJ type ZPA type Contact signal Carbon dioxide gas generator Contact signal For growing vegetables, etc. steadily in a greenhouse, the internal CO2 concentration needs to be kept constant. Because this controller incorporates a CO2 sensor and control function, the concentration of CO2 gas emitted from the CO2 generator CO2 installed in a controller ZFP type greenhouse can be controlled. Change of concentration causes the start of operation CO2 CO2 gas generator 18 FUJI’s aim is to preserve and protect the environment. Autorizovaný distributor pro ČR a SR Global Sales Section Instrumentation & Sensors Planning Dept. 1, Fuji-machi, Hino-city, Tokyo 191-8502, Japan http://www.fujielectric.com Phone: +81-42-514-8930 Fax: +81-42-583-8275 http://www.fujielectric.com/products/instruments/ Information in this catalog is subject to change without notice. Amtek, spol. s r.o. Vídeňská 125, 629 00 Brno Tel.: 547 125 555 Fax: 547 125 556 mail: [email protected] http://www.amtek.cz/fuji Printed in Japan 2016-6/5 FOLS